English

Physical Traces: Quantum vs. Classical Information Processing

Computational Geometry 2009-09-29 v2 Logic in Computer Science Category Theory Quantum Physics

Abstract

Within the Geometry of Interaction (GoI) paradigm, we present a setting that enables qualitative differences between classical and quantum processes to be explored. The key construction is the physical interpretation/realization of the traced monoidal categories of finite-dimensional vector spaces with tensor product as monoidal structure and of finite sets and relations with Cartesian product as monoidal structure, both of them providing a so-called wave-style GoI. The developments in this paper reveal that envisioning state update due to quantum measurement as a process provides a powerful tool for developing high-level approaches to quantum information processing.

Keywords

Cite

@article{arxiv.cs/0207057,
  title  = {Physical Traces: Quantum vs. Classical Information Processing},
  author = {Samson Abramsky and Bob Coecke},
  journal= {arXiv preprint arXiv:cs/0207057},
  year   = {2009}
}

Comments

The paper is written for a computer science journal, requires some knowledge on category theory but provides some basics on quantum theory